CN102536301A - Protective layer exploitation and gas pumping-exhaust management system and using method thereof - Google Patents

Abstract

The invention provides a protective layer exploitation and gas pumping-exhaust management system and a using method thereof. The protective layer exploitation and gas pumping-exhaust management system comprises a knowledge database, a receiving module and a processing module, wherein the knowledge database is used for storing construction schemes corresponding to various state parameters of a coal and gas co-exploitation working face; the receiving module is used for receiving the state parameters of the coal and gas co-exploitation working face; and the processing module is used for acquiring the construction schemes corresponding to the state parameters from the knowledge database. By adopting the technical scheme, certain guidance can be given to the outburst prevention operation in the coal and gas co-exploitation operation, the coal and gas co-exploitation aim is fulfilled, and the occurrence rate of accidents is reduced.

Description

Topping exploitation and gas exhaust management system and method for using thereof

Technical field

The present invention relates to mine extraction technical field, relate in particular to a kind of topping exploitation and gas exhaust management system and method for using thereof.

Background technology

The major tasks that existing coal and gas are adopted work altogether are protrusion-dispelling work.According to " the outstanding regulation of control coal and gas " of State Administration of Quality and Technical Supervision's promulgation, the judgement important indicator of coal seam outburst hazard is coal-bed gas pressure, gas bearing capacity etc.And the main purpose of protrusion-dispelling is to eliminate coal seam outburst hazard (being extinction).Usually the outburst prevention measures that adopts is mainly the topping exploitation and regionality is taken out in advance, and its protrusion-dispelling effect assessment parameter mainly includes remaining gas pressure, gas bearing capacity and coal seam dilatancy coefficient or the like parameter.

At present; The method of the evaluation of measuring parameter that industry adopts is mainly labor measurement; Exist consuming timely take a lot of work, data are discontinuous; Data accuracy is not high, brings certain degree of difficulty for colliery safe working science decision, thus can't coal supply and the gas protrusion-dispelling work of adopting altogether in the work give certain directiveness.

Summary of the invention

The present invention provides a kind of topping exploitation and gas exhaust management system and method for using thereof, uses and thinks that the protrusion-dispelling work that existing coal and gas are adopted in the work altogether provides certain directiveness, thereby guarantee the purpose that coal and gas are adopted altogether.

The present invention provides a kind of topping exploitation and gas exhaust management system, comprising:

Knowledge data base is used to store coal and the gas corresponding constructure scheme of various state parameters of mining face altogether;

Receiver module is used to receive coal and the gas state parameter of mining face altogether;

Processing module is used for obtaining the corresponding constructure scheme of said state parameter from said knowledge data base.

The present invention provides the method for using of a kind of topping exploitation with the gas exhaust management system, comprising:

Receive coal and the gas state parameter of mining face altogether;

From knowledge data base, obtain the corresponding constructure scheme of said state parameter; Store the corresponding constructure scheme of various state parameters in the said knowledge data base.

Topping exploitation of the present invention and gas exhaust management system and method for using thereof through receiving coal and the gas state parameter of mining face altogether, are obtained the corresponding constructure scheme of this state parameter from knowledge data base; Wherein store the corresponding constructure scheme of various state parameters in the knowledge data base.Adopt technical scheme of the present invention, can from the knowledge data base of pre-stored, accurately get access to the corresponding constructure scheme of state parameter.Changed the not convenient property that to carry out on-site measurement in the prior art.Adopt technical scheme of the present invention, can coal supply and the gas protrusion-dispelling work of adopting altogether in the work give certain directiveness, reach the purpose that coal and gas are adopted altogether, the incidence of minimizing accident.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art; To do one to the accompanying drawing of required use in embodiment or the description of the Prior Art below introduces simply; Obviously, the accompanying drawing in describing below is some embodiments of the present invention, for those of ordinary skills; Under the prerequisite of not paying creative work property, can also obtain other accompanying drawing according to these accompanying drawings.

The topping exploitation that Fig. 1 provides for the embodiment of the invention one and the structural representation of gas exhaust management system;

The topping exploitation that Fig. 2 provides for the embodiment of the invention two and the structural representation of gas exhaust management system;

The topping exploitation that Fig. 3 provides for the embodiment of the invention three and the flow chart of the method for using of gas exhaust management system;

The topping exploitation that Fig. 4 provides for the embodiment of the invention four and the flow chart of the method for using of gas exhaust management system.

The specific embodiment

For the purpose, technical scheme and the advantage that make the embodiment of the invention clearer; To combine the accompanying drawing in the embodiment of the invention below; Technical scheme in the embodiment of the invention is carried out clear, intactly description; Obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the present invention's protection.

The topping exploitation that Fig. 1 provides for the embodiment of the invention one and the structural representation of gas exhaust management system.As shown in Figure 1, the topping exploitation and the gas exhaust management system of present embodiment specifically can comprise: knowledge data base 1, receiver module 2 and processing module 3.

Wherein knowledge data base 1 is used to store coal and the gas corresponding constructure scheme of various state parameters of mining face altogether.Wherein these constructure scheme all are the constructure scheme of expert under the various state parameter conditions that practical operation is summed up according to actual conditions of this mine extraction technical field.The state parameter here can comprise that gas composes at least a in content, crack coefficient, the rock stratum degree of depth, gas permeability of coal seam and the rock matter.Therefore, we can say that in fact this knowledge data base is exactly the knowledge and experience information valueization with the colliery expert level, and the constructure scheme of correspondence is stored according to each state parameter.A state parameter can corresponding a plurality of constructure scheme in the reality.Constructure scheme wherein can comprise drill holes constructure scheme, digging constructure scheme, ventilation constructure scheme, supporting construction scheme and keep away calamity constructure scheme or the like.Receiver module 2 is used for coal and the gas state parameter of mining face altogether.As stated, state parameter is one or more in gas tax content, crack coefficient, the rock stratum degree of depth, gas permeability of coal seam and the rock matter under the mine.The receiver module 2 here specifically can receive the state parameter of the attendant of topping exploitation and gas exhaust management system through the human-machine interface module input through people's connection interface module.Processing module 3 is connected with receiver module 2 with knowledge data base 1 respectively.Processing module 3 is used for obtaining the corresponding constructure scheme of state parameter that receiver module 3 receives from knowledge data base 1.

Particularly, the processing module 3 in the present embodiment similarly is a rule-interpreter, is used for the state parameter according to receiver module 2 receptions, from knowledge data base 1, removes to mate the corresponding constructure scheme of this state parameter.Processing module 3 specifically can get access to the corresponding constructure scheme of state parameter that receiver module 2 receives from knowledge data base 1; For this topping exploitation and gas exhaust management system; The coal of receiver module 2 receptions here and gas the state parameter spy of mining face altogether can be referred to as outside factor of determination; Outside factor of determination can also be subdivided into a lot of decisive factors, and each decisive factor all can have certain restriction to constructure scheme.Adopt such scheme to obtain corresponding constructure scheme according to this outside factor of determination.

The topping exploitation and the gas exhaust management system of present embodiment through being received as state parameter, are obtained the corresponding constructure scheme of this state parameter from knowledge data base; Wherein store the corresponding constructure scheme of various state parameters in the knowledge data base.Adopt the technical scheme of present embodiment, can from the knowledge data base of pre-stored, accurately get access to the corresponding constructure scheme of state parameter.Changed the not convenient property that to carry out on-site measurement in the prior art.Adopt the technical scheme of present embodiment, can coal supply and the gas protrusion-dispelling work of adopting altogether in the work give certain directiveness, reach the purpose that coal and gas are adopted altogether, the incidence of minimizing accident.

The topping exploitation that Fig. 2 provides for the embodiment of the invention two and the structural representation of gas exhaust management system.As shown in Figure 2, the topping exploitation of present embodiment and gas exhaust management system are on above-mentioned basis embodiment illustrated in fig. 1, and wherein processing module 3, can comprise: N processing unit; N is a positive integer, and more than or equal to 2.The value of N equals the number of plies decision of the corresponding constructure scheme of state parameter.Wherein first processing unit is used for obtaining the first floor constructure scheme the corresponding constructure scheme of state parameter from knowledge data base 1.The i processing unit is used for the i-1 layer constructure scheme that obtain according to state parameter and i-1 processing unit, from knowledge data base 1, obtains the i layer constructure scheme in the corresponding constructure scheme of state parameter; Wherein i is a positive integer, and 2≤i≤N.

As shown in Figure 2, be example with N＞3.Processing module 3 specifically can comprise first processing unit 31, second processing unit 32 ..., i processing unit 33 ... with N processing unit 34, N processing unit altogether.Wherein i is a positive integer, and 2＜i＜N.

First processing unit 31 is connected with receiver module 2, and first processing unit 31 is used for obtaining the first floor constructure scheme the corresponding constructure scheme of state parameter that receiver module 2 receives from knowledge data base 1.Second processing unit 32 is connected with first processing unit 31 with receiver module 2 respectively; The first floor constructure scheme that the state parameter that second processing unit 32 is used for receiving according to receiver module 2 and first processing unit 31 obtain obtains the 2nd layer of constructure scheme in the corresponding constructure scheme of state parameter from knowledge data base 1; And the like; I processing unit 33 is connected with the i-1 processing unit with receiver module 2 respectively; The i-1 layer constructure scheme that state parameter that is used for receiving according to receiver module 2 and i-1 processing unit obtain obtains the i layer constructure scheme in the corresponding constructure scheme of state parameter from knowledge data base 1.And the like; N processing unit 34 is connected with the N-1 processing unit with receiver module 2 respectively; The N-1 layer constructure scheme that state parameter that is used for receiving according to receiver module 2 and N-1 processing unit obtain obtains the N layer constructure scheme in the corresponding constructure scheme of state parameter from knowledge data base 1;

Particularly; Here can the constructure scheme in the knowledge data base 1 be divided into multilayer; From knowledge data base 1, obtain earlier the first floor constructure scheme in the corresponding constructure scheme of state parameter that receiver module 2 receives by first processing unit 31; From knowledge data base 1, obtain the second layer constructure scheme in the corresponding constructure scheme of state parameter by second processing unit 32 according to first floor constructure scheme and state parameter again; By that analogy, i processing unit 33 can get access to the i layer constructure scheme in the corresponding constructure scheme of state parameter from knowledge data base 1; The N processing unit can get access to the N layer constructure scheme in the corresponding constructure scheme of state parameter from knowledge data base 1.In the practical application, the multilayer constructure scheme that can constructure scheme be comprised is according to tree-structured hierarchical.Earlier according to the state parameter that receives; Obtain the constructure scheme of the corresponding the superiors of this state parameter,, obtain the constructure scheme of the corresponding second layer then according to the constructure scheme and the state parameter of the superiors; The rest may be inferred; Can progressively get access to the 3rd layer constructure scheme, constructure scheme of the 4th layer or the like is up to getting access to the whole constructure scheme that distributes according to tree structure.Can become and the succession mode to obtain for the above-mentioned mode of obtaining constructure scheme, can in layer progressively obtain more detailed constructure scheme.This mode of obtaining constructure scheme in knowledge data base 1 can become and can the succession mode obtain.Promptly at first obtain the first floor constructure scheme, can get access to second layer technical scheme according to first floor constructure scheme and state parameter, the rest may be inferred, can get access to N layer technical scheme according to N-1 layer technical scheme and state parameter.Each layer constructure scheme just looks like that tree structure is the same like this, and one deck one deck of ining succession is as long as get access to the first floor constructure scheme, just can progressively get access to all technical schemes of other each layers.Accordingly, when generating knowledge data base 1, also need remove to store each layer constructure scheme according to this logic.

Certainly, in actual the use, can constructure scheme be regardless of level, for example fairly simple constructure scheme is stored in together corresponding to the constructure scheme of a certain state parameter.Can directly obtain all corresponding constructure scheme like this according to state parameter.The mode of obtaining constructure scheme in this can be called and can not the succession mode obtain.

Constructure scheme in the present embodiment can comprise drill holes, digging, ventilation, supporting and keep away constructure scheme such as calamity or comprise the constructure scheme of construction technology.

Need to prove that the topping exploitation of present embodiment also is used to receive this state parameter and corresponding first floor constructure scheme with the receiver module 2 in the gas exhaust management system.Processing module 3 also is used for obtaining other corresponding constructure scheme of state parameter according to first floor constructure scheme and state parameter.Processing module 3 also is used for this state parameter, first floor constructure scheme and other constructure scheme are stored in knowledge data base 1 according to the corresponding relation between them.Other corresponding constructure scheme can be according to the tree storage of multilayer.For example the first floor constructure scheme is direct and this state parameter corresponding stored; Second layer constructure scheme respectively with first floor constructure scheme and state parameter corresponding stored.The tri-level construction scheme respectively with second layer constructure scheme and state parameter corresponding stored.The rest may be inferred.So just, can be according to above-mentioned processing module 3 get access to corresponding constructure scheme from level to level according to inheriting obtain manner.

For the simple constructure scheme of construction, in knowledge data base 1, can only store with one deck constructure scheme.Particularly, according to the method described above, can be stored in the knowledge data base 1 according to the corresponding relation between them by all constructure scheme that state parameter is corresponding.

Constructure scheme described in the present embodiment can comprise the basic theories knowledge in mine field; Can also comprise the knowledge that the summary according to the expert in mine field or scholar's experience obtains, for the staff according to the on-the-spot coal of mine and gas altogether the mining face state parameter get access to some guiding constructure scheme of storing in the knowledge data base 1.

The topping exploitation and the gas exhaust management system of present embodiment through receiving coal and the gas state parameter of mining face altogether, are obtained the corresponding constructure scheme of this state parameter from knowledge data base; Wherein store the corresponding constructure scheme of various state parameters in the knowledge data base.Adopt the technical scheme of present embodiment, can from the knowledge data base of pre-stored, accurately get access to the corresponding constructure scheme of state parameter.Changed the not convenient property that to carry out on-site measurement in the prior art.Adopt the technical scheme of present embodiment, can coal supply and the gas protrusion-dispelling work of adopting altogether in the work give certain directiveness, reach the purpose that coal and gas are adopted altogether, the incidence of minimizing accident.

Need to prove that the topping exploitation of the foregoing description can be connected with computer with the gas exhaust management system, after processing module 3 gets access to the corresponding constructure scheme of state parameter, can the result who get access to be shown through computer display.In order to increase the convenience of topping exploitation and gas exhaust management system; On the basis of the foregoing description; Can also directly on topping exploitation and gas exhaust management system, a display module be set, for example this display module specifically can be a display screen.This display module is connected with processing module 3, and this display module is used to show the corresponding constructure scheme of state parameter that processing module 3 gets access to.Through adopting this technical scheme, can exploit the convenience that uses with the gas exhaust management system by the enhance protection layer.

The topping exploitation of the foregoing description can be provided with cross section intuitively with the display module of gas exhaust management system; For example can on display module, show the coal of receiver module 2 receptions and the state parameter of the common mining face of gas, the staff can show on display module through the coal of human-machine interface module input and the state parameter of the common mining face of gas.For example can also be set to touch-screen by display module, directly touch the input state parameter through touch-screen.From knowledge data base 1 obtain corresponding constructure scheme with the processing module 3 in the gas exhaust management system according to the state parameter that receives by the topping exploitation, and on display module, show the result that processing module is obtained.Particularly, for adopting the constructure scheme that can the succession mode gets access to, display module can be used for according to the hierarchical sequence of the corresponding constructure scheme of state parameter tree structure order for example, and with different levels constructure scheme with integral body shows.

The state parameter that for example receives when receiver module 2 is " low-permeable, high gas and negative pole coal seam "; The state parameter " low-permeable, high gas and negative pole coal seam " that this moment, processing module 3 bases received, the first floor constructure scheme that can get access to is: (a) have gas to give prominence to possibility; (b) can't be directly based on the surface drilling mash gas extraction.

According to first floor constructure scheme (a) and state parameter " low-permeable, high gas and negative pole coal seam ", can further can get access to second layer constructure scheme: (aa) need carry out gas and take out processing in advance, to guarantee exploitation safety.

According to second layer constructure scheme (aa) and state parameter " low-permeable, high gas and negative pole coal seam ", can further get access to tri-level construction scheme (aaa): head and adopt the key stratum roof and floor and wear a layer hole mash gas extraction.Particularly, this tri-level construction scheme can be obtained according to second layer constructure scheme (aa) associating first floor constructure scheme (b) inference by the expert of this area in the practical application.When in knowledge data base 1, storing, can be directly according to this level storage.

If receiver module 2 except receiving state parameter " low-permeable, high gas and negative pole coal seam ", has also received a state parameter " work plane is deposited upper corner accumulated methane phenomenon ".

Tri-level construction scheme (aaa) will united state parameter " work plane is deposited upper corner accumulated methane phenomenon " acquire the 4th layer of constructure scheme (aaaa): can use the Y type to ventilate and make distinguished and admirable to stablize.And then can directly obtain layer 5 constructure scheme (aaaaa): can use gob side entry retaining to practice thrift the tunnel cost in the mining process according to the 4th layer of constructure scheme (aaaa) and state parameter " work plane is deposited upper corner accumulated methane phenomenon ".Can also acquire layer 6 constructure scheme (aaaaaa) according to layer 5 constructure scheme (aaaaa): can arrange layer-through drilling up and down based on gob side entry retaining.The layer 6 constructure scheme (aaaaaa) here can be that reasoning obtains according to layer 5 constructure scheme (aaaaa) associating first floor constructure scheme (a) for the expert of this area.

The topping exploitation that Fig. 3 provides for the embodiment of the invention three and the flow chart of the method for using of gas exhaust management system.As shown in Figure 3, the topping exploitation of present embodiment and the method for using of gas exhaust management system specifically can comprise:

Step 100, reception coal and gas is the state parameter of mining face altogether;

Step 101, from knowledge data base, obtain the corresponding constructure scheme of state parameter; Store coal and the gas corresponding constructure scheme of various state parameters of mining face altogether in this knowledge data base.

The state parameter of present embodiment comprises that gas composes at least a in content, crack coefficient, the rock stratum degree of depth, gas permeability of coal seam and the rock matter.

The topping exploitation of present embodiment and the method for using of gas exhaust management system can be repeated no more at this with reference to the associated description of above-mentioned topping exploitation with the gas exhaust management system in detail.

The topping exploitation of present embodiment and the method for using of gas exhaust management system through being received as state parameter, are obtained the corresponding constructure scheme of this state parameter from knowledge data base; Wherein store the corresponding constructure scheme of various state parameters in the knowledge data base.Adopt the technical scheme of present embodiment, can from the knowledge data base of pre-stored, accurately get access to the corresponding constructure scheme of state parameter.Changed the not convenient property that to carry out on-site measurement in the prior art.Adopt the technical scheme of present embodiment, can coal supply and the gas protrusion-dispelling work of adopting altogether in the work give certain directiveness, reach the purpose that coal and gas are adopted altogether, the incidence of minimizing accident.

The topping exploitation that Fig. 4 provides for the embodiment of the invention four and the flow chart of the method for using of gas exhaust management system.Suppose in the present embodiment that the constructure scheme that state parameter is corresponding in the knowledge data base includes the N layer altogether.As shown in Figure 4, the topping exploitation of present embodiment and the method for using of gas exhaust management system specifically can comprise:

Step 200, reception coal and gas is the state parameter of mining face altogether;

Step 201, from knowledge data base, obtain the first floor constructure scheme in the corresponding constructure scheme of this state parameter;

Step 202, begin,, from knowledge data base, obtain the i layer constructure scheme in the corresponding constructure scheme of state parameter according to i-1 layer constructure scheme and state parameter from i=2; Then i is updated to i+1, repeats this step, finish up to i=N;

Through adopting such scheme can get access to the N layer constructure scheme in the corresponding constructure scheme of state parameter.

Step 203, show constructure scheme according to the hierarchical sequence of the N layer constructure scheme in the corresponding constructure scheme of state parameter.

Particularly, be to comprise that N layer constructure scheme is that example is explained in the present embodiment.Obtain the first floor constructure scheme in the corresponding constructure scheme of state parameter earlier; Obtain the second layer constructure scheme in the corresponding constructure scheme of state parameter according to first floor constructure scheme and state parameter then; The rest may be inferred, up to all constructure scheme that get access to this state parameter.Last all corresponding constructure scheme of this state parameter of demonstration on the display screen of this topping exploitation and gas exhaust management system; And when showing, can show whole constructure scheme according to the hierarchical sequence of the N layer constructure scheme in the corresponding constructure scheme of state parameter.

The state parameter of present embodiment comprises that also gas composes at least a in content, crack coefficient, the rock stratum degree of depth, gas permeability of coal seam and the rock matter.

The topping exploitation of present embodiment and the method for using of gas exhaust management system through being received as state parameter, are obtained the corresponding constructure scheme of this state parameter from knowledge data base; Wherein store the corresponding constructure scheme of various state parameters in the knowledge data base.Adopt the technical scheme of present embodiment, can from the knowledge data base of pre-stored, accurately get access to the corresponding constructure scheme of state parameter.Changed the not convenient property that to carry out on-site measurement in the prior art.Adopt the technical scheme of present embodiment, can coal supply and the gas protrusion-dispelling work of adopting altogether in the work give certain directiveness, reach the purpose that coal and gas are adopted altogether, the incidence of minimizing accident.

Need to prove before the step 100 or step 200 of the foregoing description, can also comprise:

(1) the N layer constructure scheme in the constructure scheme of accepting state parameter and correspondence;

(2) the N layer constructure scheme in the constructure scheme of state parameter, correspondence is stored in the knowledge data base according to the corresponding relation between them.

Particularly, also need in the present embodiment in advance each state parameter and corresponding each layer constructure scheme thereof to be stored in the knowledge data base according to the corresponding relation between them.When constructure scheme comprises multilayer, still be stored in the knowledge data base according to constructure scheme corresponding relation between layer and layer, in order to follow-up state parameter according to reception, the constructure scheme that obtains this state parameter correspondence in layer.

Device embodiment described above only is schematic; Wherein the unit as the separating component explanation can or can not be physically to separate also; The parts that show as the unit can be or can not be physical locations also; Promptly can be positioned at a place, perhaps also can be distributed at least two NEs.Can realize the purpose of present embodiment scheme according to the needs selection some or all of module wherein of reality.Those of ordinary skills promptly can understand and implement under the situation of not paying performing creative labour.

What should explain at last is: above embodiment is only in order to explaining technical scheme of the present invention, but not to its restriction; Although with reference to previous embodiment the present invention has been carried out detailed explanation, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment put down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these are revised or replacement, do not make the spirit and the scope of the essence disengaging various embodiments of the present invention technical scheme of relevant art scheme.

Claims (10)

1. a topping is exploited and the gas exhaust management system, it is characterized in that, comprising:

Knowledge data base is used to store coal and the gas corresponding constructure scheme of various state parameters of mining face altogether;

Receiver module is used to receive coal and the gas state parameter of mining face altogether;

Processing module is used for obtaining the corresponding constructure scheme of said state parameter from said knowledge data base.

2. topping exploitation according to claim 1 and gas exhaust management system is characterized in that said processing module comprises N processing unit, and N is a positive integer, and more than or equal to 2;

Wherein first processing unit is used for obtaining the first floor constructure scheme the corresponding said constructure scheme of said state parameter from said knowledge data base;

The i processing unit is used for the i-1 layer constructure scheme that obtain according to said state parameter and i-1 processing unit, from said knowledge data base, obtains the i layer constructure scheme in the corresponding said constructure scheme of said state parameter; Wherein i is a positive integer, and 2≤i≤N.

3. topping exploitation according to claim 2 and gas exhaust management system is characterized in that:

Said receiver module also is used for receiving the N layer constructure scheme of said state parameter and corresponding said constructure scheme;

Said processing module also is used for the N layer constructure scheme of said state parameter, corresponding said constructure scheme is stored in the said knowledge data base according to the corresponding relation between them.

4. topping exploitation according to claim 2 and gas exhaust management system is characterized in that, also comprise:

Display module is used for showing said constructure scheme according to the hierarchical sequence of the N layer constructure scheme of the corresponding said constructure scheme of said state parameter.

5. according to arbitrary described topping exploitation of claim 1-4 and gas exhaust management system, it is characterized in that said state parameter comprises that gas composes at least a in content, crack coefficient, the rock stratum degree of depth, gas permeability of coal seam and the rock matter.

6. the method for using of topping exploitation and gas exhaust management system is characterized in that, comprising:

Receive coal and the gas state parameter of mining face altogether;

From knowledge data base, obtain the corresponding constructure scheme of said state parameter; Store coal and the gas corresponding constructure scheme of various state parameters of mining face altogether in the said knowledge data base.

7. the method for using of topping exploitation according to claim 6 and gas exhaust management system is characterized in that the said constructure scheme that state parameter described in the said knowledge data base is corresponding includes the N layer; From said knowledge data base, obtain the corresponding constructure scheme of said state parameter, specifically comprise:

From said knowledge data base, obtain the first floor constructure scheme in the corresponding said constructure scheme of said state parameter;

Begin from i=2,, from said knowledge data base, obtain the i layer constructure scheme in the corresponding said constructure scheme of said state parameter according to i-1 layer constructure scheme and said state parameter; Then i is updated to i+1, repeats this step, finish up to i=N; Wherein N is the number of plies of the constructure scheme that comprises in the said knowledge data base, and N is a positive integer, and more than or equal to 2; I also is a positive integer, and 2≤i≤N.

8. the method for using of topping exploitation according to claim 7 and gas exhaust management system is characterized in that, also comprises:

Receive the N layer constructure scheme in said state parameter and the corresponding constructure scheme;

N layer constructure scheme in the said constructure scheme of said state parameter, correspondence is stored in the said knowledge data base according to the corresponding relation between them.

9. the method for using of topping according to claim 7 exploitation and gas exhaust management system is characterized in that, also comprises: the hierarchical sequence according to the N layer constructure scheme of the corresponding said constructure scheme of said state parameter shows said constructure scheme.

10. according to the method for using of the arbitrary described topping exploitation of claim 6-9, it is characterized in that said state parameter comprises that gas composes at least a in content, crack coefficient, the rock stratum degree of depth, gas permeability of coal seam and the rock matter with the gas exhaust management system.

Images